1. Phylum Porifera

2. Porifera Characteristics Freshwater and marine Simplest of all animals Asymmetrical No systems for repro, digestion, respiration, sensory, excretion

3. Porifera Characteristics ~ 5,500 extant species Highest abundance in unpolluted littoral and tropical reefs ~ 75% benthic biomass

4. Porifera Characteristics Sessile (Adults) Suspension-feeders (Adults) Multicellular Flagellated cells = choanocytes circulate water through water canals No tissues Cells totipotent

5. Porifera Characteristics Outer and inner cell layers lack basement membrane Middle layer (mesohyl) has motile cells and skeletal material Skeletal elements (when present) are calcium carbonate, silicon dioxide and/or collagen fibers

6. Taxonomy and classification Taxonomy based on skeletal elements Now embryological, biochemical, histological, and cytological methods to diagnose sponge taxa

7. Three classes (Calcarea, Demospongiae, Hexactinellida) Class Calcarea: Calcareous sponges Shallow, tropical water, near shore Leucetta

8. Class Calcarea Spicules = calcium carbonate Calcarean spicules lack hollow canals = strong Clathrina

9. Class Hexactinellida (Glass sponges) – –Silica spicules – –Spicules join at right angles, sponge appears artificial

10. Class Demospongiae (Demosponges) Largest and most diverse class of sponges, ~ 90 percent of sponges Spicules either spongin, an organic substance; or silica, a mineralized substance Oscarella

11. Class Demospongiae Genera Adocia, Halisarca, Myxilla

12. Aquiferous system Brings water to cells 1 x 10 cm sponge pumps 22.5 l water daily Large sponge filters body mass every 10-20 s

13. Sponges are single individuals Grow by continually adding cells that differentiate as needed

14. Body structure and aquiferous System Outer layer – –Perforated by small holes - dermal pores or ostia Choanoderm: innermost layer of flagellated cells = choanocytes Mesohyl: middle layer

15. Body structure: 3 shapes

16. Asconoid sponges Asconoid: one-cell thick choanoderm is simple and continuous – –~10 cm height – –Thin walls enclose central cavity; atrium opens outside via osculum – –Pinacoderm has specialized cells; porocytes – –External opening of porocyte canal is ostium or incurrent pore

17. Asconoid sponges

18. Syconoid sponges Syconoid: choanoderm folded – –Mesohyl two layers thick: Outer region is cortex (contains skeletal material)

19. Leuconoid Sponge Leuconoid: choanoderm subdivided into separate flagellated chambers

21. Flow rate Flow rate not uniform throughout Water must move slowly over choanoderm – –Exchange nutrients, gases, and wastes Water leaving osculum must be carried far enough away to prevent fouling

22. Cells that line surfaces Pinacocytes Porocytes Choanocytes

23. Cells that line surfaces Porocytes – –Form ostia – –Cylindrical tube-like cells – –Contractile - open and close pore to regulate diameter

24. Cells that line the surface Choanocytes – –= choanoderm – –Create currents – –Not coordinated in movement

25. Cells that secrete skeleton Fibrillar collagen – –Collencytes – –Lophocytes – –Spongocytes Calcareous and siliceous spicules – –Sclerocytes

26. Contractile cells Myocytes – –Contractile cells – –Filament arrangement homologous with smooth muscle cell – –Unlike neurons and true muscle fibers

27. Cell Aggregation Atlantic sponge (Microciona prolifera) – –Pieces pressed through fine cloth – –Separated cells reorganize – –2-3 weeks – –Self-recognition

28. Support Skeletal elements – –Organic - collagenous – –Inorganic – siliceous (hydrate silicon dioxide) Sponges only animals that use hydrated silica as skeletal material

29. Sponge Harvest Harvested for thousands of years Greeks harvested sponges Sponge fishery south of FL, Bahamas, Mediterranean – –1938: 2.6 million lbs

30. Sponge Harvest Hippospongia Spongia

31. Spicules Microscleres Megascleres – –Demosponges and Hexactinellids have both – –Calcareous sponges have only megascleres

32. Nutrition, Excretion, and Gas Exchange Intracellular digestion Continuously circulate water – –Size selective feeders Food capture – –Phagocytosis and pinocytosis

33. Excretion Ammonia and gas exchange – –Diffusion

34. Activity and Sensitivity Respond to environmental stimuli: – –Close ostia or oscula, canal constriction, backflow

35. Reproduction and Development Sexual and asexual reproduction – –All sponges capable of sexual and asexual repro – –Processes unknown due to lack of distinct, localized gonads (gametes, embryos occur throughout mesohyl) – –Asynchrony of reproductive activity w/in populations

36. Reproduction and Development Asexual Reproduction – –All sponges produce viable adults from fragments – –Cellular reorganization “pinches off” branch ends which regenerate into new adults – branching species

37. Reproduction and Development Asexual Reproduction – –Common in Florida’s sponge farms - cuttings attached to cement structure – –Other processes include formation of gemmules, budding

38. Reproduction and Development Gemmules – –Produced in winter as dormant bodies – –Coat and supportive cells protects from freezing and desiccation

39. Reproduction and Development Gemmules

40. Reproduction and Development Budding – –Squat or elongate club-shaped protrusions from sponge surface – –Buds drop, carried by current, adhere to substratum – –Marine species

41. Reproduction and Development Sexual Processes – –Majority are hermaphroditic; produce sperm and eggs at different times = Sequential hermaphroditism – –Protogyny or protandry may occur once or many times during life

42. Reproduction and Development Sexual reproduction Sperm from choanocytes; eggs from choanocytes and archaeocytes

43. Reproduction and Development Sexual process (Demospongiae and Calcarea) Sperm and oocytes released into environment via aquiferous system – –Sperm release -”smoking sponges” – –Fertilization in open water (oviparous) – –Few viviparous: sperm into nearby sponge’s aquiferous system; sperm to oocyte for fertilization

44. Reproduction and Development Madsen sponge releasing sperm

45. Reproduction and Development Release of larvae (vivipary) – –Through aquiferous system or ruptured wall – –Larvae swim hours or days, or crawl along substratum before settling – –Larvae are lecithotrophic = use stored yolk

46. Reproduction and Development Larval development

47. Distribution and Ecology Calcareous sponges abundant in shallow waters < 200 m Hexactinellids deeper Demosponges at all depths

48. Distribution and Ecology Sensitive to suspended sediments Resistant to hydrocarbon and heavy metal contamination – –Why?

49. Symbioses Commensalism common (small inverts, fishes) Protection, habitat, water currents for suspended food particles Some organisms utilize sponge for camouflage, small piece on shell or carapace

50. Boring Demosponges - harmful to corals and mollusc shells = bioerosion; chemical and mechanical removal of fragments by etching cells